Your search keyword '"Calvin R. Howard"' showing total 3 results

1. Real‐Time Digital‐Cepstrum‐Pitch Extraction on a 12‐Bit Machine

Author

Harold J. Manley, Richard L. Freudberg, Harry L. Shaffer, Joseph deLellis, and Calvin R. Howard

Subjects

Acoustics and Ultrasonics, 12-bit, Computer science, Detector, Fast Fourier transform, Audio time-scale/pitch modification, Pitch detection algorithm, Pitch period, ComputingMethodologies_PATTERNRECOGNITION, Arts and Humanities (miscellaneous), Position (vector), Cepstrum, Voice, Algorithm

Abstract

This paper describes a digital cepstrum‐pitch detector designed to work in real time on a 12‐bit binary machine. Spectrum and cepstrum analysis of raw speech data is accomplished through the use of a single complex Fast Fourier Transform (FFT) algorithm. Pitch detection is accomplished by a cepstrum‐peak scanning logic designed to locate the position of a peak corresponding to the pitch period. Since other peaks may exist in the data, logic is required to differentiate these peaks from the desired one. Because of the limited word size of the machine, special processing algorithms were developed to perform logging and to avoid the squaring of variables. Various logical operations performed on the spectrum and cepstrum functions in voicing detection and in the extraction of pitch are presented and discussed. A demonstration of the performance of this pitch detector when operated with a 2400‐bit/sec digital vocoder will be presented by means of a tape recording. [Work supported under contract.]

Published

1969

2. Analysis and Synthesis of Formants and Moments of Speech Spectra

Author

Marcello J. Carrabes, Calvin R. Howard, and Sze‐Hou Chang

Subjects

Spectrum analyzer, Formant, Acoustics and Ultrasonics, Arts and Humanities (miscellaneous), Compression system, Speech recognition, Acoustics, Speech sounds, Spectrogram, Radio spectrum, Spectral line, Mathematics

Abstract

A system for the analysis and synthesis speech is described. In the analyzer, speech sounds are first classified into nonturbulent and turbulent groups. The first three formants of the former group and the first three moments of the latter group constitute six significant parameters of speech spectra. By measuring the zero‐crossing densities and/or envelopes of automatically selected frequency bands, these parameters or their equivalents are extracted. To test the feasibility of using these parameters in a speech compression system, a synthesis procedure is carried out. The synthesized speech and its spectrograms are demonstrated. [The research in this paper has been made possible through support and sponsorship extended by the Electronics Research Directorate of the Air Force Cambridge Research Center, under Contract No. AF 19(604)‐1039, Item I.]

Published

1956

3. Intelligibility versus Number of Transmitted Spectral Parameters in a Laguerre Autocorrelation Vocoder

Author

Calvin R. Howard and Harold J. Manley

Subjects

Acoustics and Ultrasonics, Arts and Humanities (miscellaneous), Acoustics, Autocorrelation, Laguerre polynomials, Time constant, Spectral density, Intelligibility (communication), Transistor circuits, Sine and cosine transforms, Mathematics

Abstract

In this paper, an experiment is described in which articulation scores were measured as the number of transmitted spectral parameters was varied from 6 to 16 in a Laguerre autocorrelation vocoder. The transmitted spectral parameters were the expansion coefficients of the short‐time‐averaged speech autocorrelation function in terms of Laguerre functions. Thus, these parameters are the same as the expansion coefficients of the speech power spectrum in terms of the Fourier cosine transforms of the Laguerre functions. The analysis and synthesis filters in this vocoder were synthesized from a number of identical RC transistor circuits. The time constant of the Laguerre analysis and synthesis filters was 125×10−6 sec. The system was operated in an analog back‐to‐back mode for these tests. The results presented show that about 16 parameters are required to achieve performance comparable to contemporary filter‐bank vocoders. The intelligibility tests were performed by Bolt Beranek and Newman Inc., in early 1965.

Published

1966